Your search keyword '"Muhammad Jamaluddin Thaheem"' showing total 8 results

1. A Sustainability-Based Risk Assessment for P3 Projects Using a Simulation Approach

Author

Beenish Bakhtawar, Muhammad Jamaluddin Thaheem, Husnain Arshad, Salman Tariq, Khwaja Mateen Mazher, Tarek Zayed, and Naheed Akhtar

Subjects

highways, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, risk assessment, TJ807-830, public–private partnership, sustainability, infrastructure, Monte Carlo, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Environmental sciences, GE1-350

Abstract

Integrating sustainability in the risk management process is an emergent problem, especially for efficient infrastructure delivery. For the case of complex projects like public–private partnerships (P3), traditional management practices offer a limited capacity to address long-ranging risk impacts on the social, economic, and environmental fabric within and around the project boundaries. Although P3 projects are objective-based contracts, present risk models rarely delineate risk impacts on focused project objectives. The relevant studies are very scarce creating a limited understanding of available approaches to conducting sustainability-based risk management for P3 projects. As risk and sustainability are two inherently subjective concepts with multiple interpretations, their combined assessment within a single framework demands a pragmatic approach. Therefore, the current study presents a model for conducting a sustainability-based risk assessment of P3 infrastructure projects through global data. Monte Carlo simulation is employed to further define the probabilistic risk ranges and risk ranks over relevant triple-bottom-line-based sustainability indicators for highway sector P3 projects. Findings are further demonstrated through two highway case studies and relevant mitigation strategies are also suggested. In the end, an implementation framework and future recommendations for the application of study findings on actual projects are also suggested. The study has useful implications for practitioners and researchers alike aiming for the delivery of sustainable complex projects.

Published

2022

2. Assessing Rainwater Harvesting Potential in Urban Areas: A Building Information Modelling (BIM) Approach

Author

Sharjeel Ismail, Bilal Aslam, Fahim Ullah, Muhammad Jamaluddin Thaheem, Ahsen Maqsoom, Hafiz Zahoor, Nikolai Vatin, and Muhammad Ali Musarat

Subjects

Occupancy, Geography, Planning and Development, Water supply, TJ807-830, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Water scarcity, Rainwater harvesting, rainwater harvesting (RwH), residential buildings, sustainable drainage systems (SuDs), GE1-350, Baseline (configuration management), Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, hydrological investigation, Environmental resource management, Water demand, Fundamental human needs, Environmental sciences, building information modeling (BIM), Building information modeling, water demand, Environmental science, business

Abstract

Water scarcity has become a major problem for many countries, resulting in declining water supply and creating a need to find alternative solutions. One potential solution is rainwater harvesting (RwH), which allows rainwater to be stored for human needs. This study develops an RwH assessment system through building information modeling (BIM). For this purpose, a hydrological study of Cfa-type climate cities is conducted with the example of Islamabad, Pakistan. The monthly rainfall data of three sites were assessed to determine the volume of the accumulated rainwater and its potential to meet human needs. The average number of people living in a house is taken as the household number. Household number or of the number of employees working at a small enterprise, roofing material, and rooftop area are used as the key parameters for pertinent assessment in the BIM. The data simulated by BIM highlight the RwH potential using five people per house as the occupancy and a 90 m2 rooftop area for residential buildings or small enterprises as parameters. The results show that the selected sites can collect as much as 8,190 L/yr of rainwater (48 L/person/day) to 103,300 L/yr of rainwater (56 L/person/day). This much water is enough to fulfill the daily demands of up to five people. Therefore, it is established that the study area has an RwH potential that is able to meet the expected demands. This study presents a baseline approach for RwH to address water scarcity issues for residential buildings and factories of the future.

Published

2021

3. Exploring the Role of BIM in Construction Safety in Developing Countries: Toward Automated Hazard Analysis

Author

Ramsha Akram, Muhammad Jamaluddin Thaheem, Shamraiza Khan, Abdur Rehman Nasir, and Ahsen Maqsoom

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, construction safety, safety management, BIM, automation, process map, Building and Construction, Management, Monitoring, Policy and Law

Abstract

Safety is a well-researched yet underperforming management aspect of the construction industry. Building information modeling (BIM) can help, and some frameworks have addressed safety management in limited phases of the project lifecycle. This study positions BIM centrally in the safety management process and develops a safety management framework that covers the entire lifecycle of a construction project in the context of developing countries. A systematic literature review is conducted to identify the safety factors and BIM features that are synthesized to devise BIM-based safety improvement strategies. The strategies are presented to construction management professionals from developed and developing countries through an online questionnaire survey, and their level of agreement is identified. Afterward, construction safety experts are engaged to integrate these strategies into appropriate lifecycle phases. Additionally, these experts are also engaged to develop an automated hazard recognition process to leverage BIM potential in safety management. The integration of strategies into project lifecycle phases resulted in a comprehensive safety implementation framework leveraging the BIM platform. This framework takes a lead from the experience of developed countries and considers the limitations of developing countries in terms of resources and technology. Furthermore, a BIM-based process map for hazard identification is developed. The process map takes the BIM model as input and provides a detailed safety report. The process map can be automated to enhance effective safety management. This study expands the body of knowledge through a BIM-driven lifecycle safety management framework for developing countries where BIM adoption is still in its early stages. It is a fresh take on safety automation to make the construction industry safer and more reliable. However, it is limited due to inadequate safety reporting and documentation in developing countries. Future research can improve upon this limitation by positioning in a safety-compliant culture.

Published

2022

4. An Integrated Approach for Post-Disaster Flood Management Via the Use of Cutting-Edge Technologies and UAVs: A Review

Author

Asheem Shrestha, Ahmed W. A. Hammad, S. Travis Waller, Muhammad Jamaluddin Thaheem, and Hafiz Suliman Munawar

Subjects

natural disaster, 010504 meteorology & atmospheric sciences, Computer science, 0208 environmental biotechnology, Geography, Planning and Development, TJ807-830, Image processing, 02 engineering and technology, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, Domain (software engineering), Satellite imagery, GE1-350, Natural disaster, 0105 earth and related environmental sciences, Flood myth, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Integrated approach, artificial intelligence, 020801 environmental engineering, image processing, Environmental sciences, Engineering management, Early warning system, Enhanced Data Rates for GSM Evolution, early warning system

Abstract

Rapid advances that improve flood management have facilitated the disaster response by providing first aid services, finding safe routes, maintaining communication and developing flood maps. Different technologies such as image processing, satellite imagery, synthetic imagery and integrated approaches have been extensively analysed in the literature for disaster operations. There is a need to review cutting-edge technologies for flood management. This paper presents a review of the latest advancements in the flood management domain based on image processing, artificial intelligence and integrated approaches with a focus on post-disaster. It answers the following research questions: (1) What are the latest developments in image processing for flood management in a post-disaster scenario? (2) What are the latest techniques for flood management based on artificial intelligence in a post-disaster scenario? (3) What are the existing gaps in the selected technologies for post-disaster? (4) How can the authorities improve the existing post-disaster management operation with cutting-edge technologies? A novel framework has been proposed to optimise flood management with the application of a holistic approach.

Published

2021

5. Evaluation of Road Infrastructure Projects: A Life Cycle Sustainability-Based Decision-Making Approach

Author

Beenish Bakhtawar, Husnain Arshad, Asheem Shrestha, and Muhammad Jamaluddin Thaheem

Subjects

Program evaluation, Process management, life cycle sustainability assessment, Computer science, 020209 energy, Geography, Planning and Development, TJ807-830, Analytic hierarchy process, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Phase (combat), Renewable energy sources, project evaluation, 0202 electrical engineering, electronic engineering, information engineering, GE1-350, 0105 earth and related environmental sciences, road infrastructure, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, decision-making, Multiple-criteria decision analysis, Environmental sciences, analytical hierarchy process, National development, Sustainability, Pairwise comparison, Externality

Abstract

Economic growth, social wellbeing, and infrastructure are strongly interrelated and jointly contribute to national development. Therefore, evaluation and selection of a road infrastructure project direly need a comprehensive sustainability assessment integrating holistic decision criteria. This study presents an elaborate life cycle sustainability-based project evaluation tool, comprising an assessment framework, an integration model, and a decision framework. In the first phase, a life cycle sustainability assessment (LCSA) framework for road infrastructure is established using mixed methods. In the second phase, interviews are conducted to obtain pairwise comparisons among impact categories and subjective reasoning of their priorities. Analytical hierarchy process (AHP) is adopted to develop the LCSA integration model. The minimum threshold limits of impact categories are evaluated and integrated into the proposed decision framework. Further, thematic and cross-sectional analyses are performed on the interview findings to rationalize the proposed decision framework. The findings include a detailed and customized project assessment framework, an integration model, and a decision framework for the assessment of different project alternatives. This study helps policy- and decision-makers in selecting the project alternative by maximizing sustainability in road infrastructure projects. Insights into environmental and social externalities and their quantitative interpretation throughout the life of the road are also achieved.

Published

2021

6. Social Sustainability in Construction Projects—A Systematic Review of Assessment Indicators and Taxonomy

Author

Mozhdeh Rostamnezhad and Muhammad Jamaluddin Thaheem

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Management, Monitoring, Policy and Law

Abstract

Despite its importance and appeal, the social dimension of sustainability in construction projects is less explored and lacks a comprehensive and standardized framework. This diminishes the holistic view of sustainability. The existing customized frameworks make the selection of factors challenging across different contexts. Eventually, the practitioners have to pick and choose the factors. This reduces the reliability of social sustainability assessments and makes them a procedural challenge. To fill this gap, the current review synthesizes a framework of social sustainability for construction projects. For this purpose, a systematic review of the literature published until 2021 is performed. The indicators are extracted from the selected 22 papers and their content is analyzed to check for similarities. The final set of 76 factors is synthesized into an assessment framework through a thematic analysis based on a bottom-up approach. The framework is organized into 7 enablers or themes, 27 indicators, and 76 sub-indicators. The enablers of social sustainability are stakeholder, safety and health, human resource development, project, industry, community, and government. The framework provides a comprehensive and precise view of social sustainability which can be leveraged to ensure better planning and sustainable development of construction projects.

Published

2022

7. BIMp-Chart—A Global Decision Support System for Measuring BIM Implementation Level in Construction Organizations

Author

Rabiah Muhammad, Qurratulain Malik, Khurram Iqbal Ahmad Khan, Abdur Rehman Nasir, Fahim Ullah, Muhammad Jamaluddin Thaheem, and Muhammad Usman Hassan

Subjects

Decision support system, Process management, Process (engineering), Computer science, Geography, Planning and Development, TJ807-830, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, GeneralLiterature_MISCELLANEOUS, critical success factors (CSFs), Critical success factor, GE1-350, Architecture, BIM implementation, Pace, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, Questionnaire, Environmental sciences, building information modeling (BIM), indexes, construction organization, Building information modeling, Multinational corporation, business

Abstract

Building Information Modeling (BIM) is recognized as one of the most significant technological breakthroughs in the Architecture, Engineering, and Construction (AEC) industry. The pace of implementation of BIM in AEC has increased during the past decade with an enhanced focus on sustainable construction. However, BIM implementation lags its potential because of several factors such as readiness issues, lack of previous experience in BIM, and lack of market demand for BIM. To evaluate and solve these issues, understanding the current BIM implementation in construction organizations is required. Motivated by this need, the main objective of this study is to propose a tool for the measurement of BIM implementation levels within an organization. Various sets of indexes are developed based on their pertinent Critical Success Factors (CSFs). A detailed literature review followed by a questionnaire survey involving 99 respondents is conducted, and results are analyzed to formulate a BIMp-Chart to calculate and visualize the BIM implementation level of an organization. Subsequently, the applicability of the BIMp-Chart is assessed by comparing and analyzing datasets of four organizations from different regions, including Qatar, Portugal, and Egypt, and a multinational organization to develop a global measurement tool. Through measuring and comparing BIM implementation levels, the BIMp-Chart can help the practitioners identify the implementation areas in an organization for proper BIM implementation. This study helps understand the fundamental elements of BIM implementation and provides a decision support system for construction organizations to devise proper strategies for the effectual management of the BIM implementation process.

Published

2021

8. A Hybrid Tool for Visual Pollution Assessment in Urban Environments

Author

Khydija Wakil, Malik Asghar Naeem, Ghulam Abbas Anjum, Abdul Waheed, Muhammad Jamaluddin Thaheem, Muhammad Qadeer ul Hussnain, and Raheel Nawaz

Subjects

lcsh:GE1-350, lcsh:TD194-195, lcsh:Environmental effects of industries and plants, lcsh:TJ807-830, urban areas, lcsh:Renewable energy sources, Visual Pollution Objects (VPOs), Visual Pollution Assessment (VPA), evidence based policy, urban visual pollution, lcsh:Environmental sciences, urban planning, Analytical Hierarchy Process (AHP)

Abstract

With increasing focus on more nuanced aspects of quality of life, the phenomenon of urban visual pollution has been progressively gaining attention from researchers and policy makers, especially in the developed world. However, the subjectivity and complexity of assessing visual pollution in urban settings remain a challenge, especially given the lack of robust and reliable methods for quantification of visual pollution. This paper presents a novel systematic approach for the development of a robust Visual Pollution Assessment (VPA) tool. A key feature of our methodology is explicit and systematic incorporation of expert and public opinion for listing and ranking Visual Pollution Objects (VPOs). Moreover, our methodology deploys established empirical complex decision-making techniques to address the challenge of subjectivity in weighting the impact of individual VPOs. The resultant VPA tool uses close-ended options to capture the presence and characteristics of various VPOs on a given node. Based on these inputs, it calculates a point based visual pollution scorecard for the observation point. The performance of the VPA tool has been extensively tested and verified at various locations in Pakistan. To the best of our knowledge, this is the first such tool, both in terms of quantitative robustness and broad coverage of VPOs. Our VPA tool will help regulators in assessing and charting visual pollution in a consistent and objective manner. It will also help policy makers by providing an empirical basis for gathering evidence, hence facilitating evidence-based and evidence-driven policy strategies, which are likely to have significant impact, especially in the developing countries.

Published

2019